Method of producing a cordierite honeycomb structural body

ABSTRACT

Cordierite honeycomb structural bodies having coefficients of thermal expansion of not more than 1.0x10 -6 , an improved thermal shock resistance, a very small leakage amount and an improved heat exchanging efficiency are provided by using very fine particles of kaolin and talc to restrict a total pore volume of a given pore diameter to a given range. The cordierite honeycomb structural bodies are useful in broader fields than conventional ones.

BACKGROUND OF THE INVENTION

This is a division of application Ser. No. 946,901 filed Dec. 29, 1986, now U.S. Pat. No. 4,877,670.

1. Field of the Invention

The present invention relates to a cordierite honeycomb structural body, particularly, to a highly airtight cordierite honeycomb structural body for a rotary accumulative type or a heat transfer type heat exchanger, which have excellent thermal shock resistance, airtightness and heat resistance, and a method of producing the same.

2. Related Art

Recently, the desire for materials having excellent heat resistance and thermal shock resistance has increased along with the improvement of industrial techniques for use thereof. The thermal shock resistance of ceramics is influenced not only by the coefficient or thermal expansion, heat transfer coefficient, strength, elastic moldulus, Poisson's ratio and the like in a material, but also by the size, shape and heating and cooling conditions in an article.

It is known that along these factors influencing the thermal shock resistance, particularly, the contribution of the coefficient of thermal expansion is large. Particularly, when the heat flow rate is large, the thermal shock resistance is significantly influenced only by the coefficient of thermal expansion. Therefore, there is a strong demand for the development of low thermal expansion materials having excellent thermal shock resistance.

Heretofore, cordierite ceramics have been known as relatively low thermal expansion materials. However, the densification of cordierite ceramics by sintering is difficult in general. Particularly, for the production of low thermal expansion cordierite ceramics having coefficients of thermal expansion of, for example, 2.0×10⁻⁶ /°C. or less in a temperature range of from room temperature to 800° C., batch composition of raw materials have been used wherein the amounts of impurities such as alkali, (calcium, potassium, sodium) and the like which function as fluxes during firing the batch composition are limited to very minor amounts, so that cordierite honeycomb structural bodies obtained by firing the batch compositions have very small amounts of a glassy phase and hence are very porous and are not dense.

Accordingly, when such a cordierite ceramic is, for example, formed into a honeycomb structure to be used in a rotary accumulative type heat exchanger, fluid leakage is generated due to high porosity from open pores which communicate between the heating fluid side of a partition wall and the heat recovery side of a partition wall, particularly pores communicating with the surface of the partition wall defining the penetration holes of the honeycomb structural body, with the result being that the heat exchanging efficiency and overall efficiency of heat exchanger system, decrease, which is a serious defect.

Thus, there has strongly been demanded a low thermal expansion and highly airtight cordierite honeycomb structural body having improved thermal shock resistance.

Heretofore, the low thermal expansion of cordierite ceramics has been publicly known. For instance, U.S. Pat. No. 3,885,977 discloses an oriented cordierite ceramic having a coefficient of thermal expansion of less than 11×10⁻⁷ /°C.) in at least one direction in a temperature range of 25°-1,000° C., which is achieved by a planar orientation of clay platelets which occurs during the processing of stacked clay, or the use of platelet clay which also can result in such an orientation. However, that cordierite ceramic uses coarse talc having particle diameters of 10-20 μm and clays of wide particle diameters of 0.1-10 μm, and there is no disclosure concerning the pore structure of such materials.

Further, U.S. Pat. No. 3,950,175 discloses that a porous cordierite ceramic having open pores of a pore diameter of more than 10 μm can be obtained in an amount of at least 20% by substituting silica or a silica alumina source material such as pyrophyilite, kyanite, quartz or fused silica in part or whole for talc or clay in the raw materials from which such ceramics are made. However, there is no description of the total pore volume of a pore diameter of not less than 5 μm restricted to not more than 0.04 cc/g by using fine talc having an average particle diameter of not more than 7 μm, whereby the airtight properties increase.

Furthermore, U.S. Pat. No. 4,280,845 discloses a positive correlation between the average particle diameter of talc particles and the average pore diameter of pores in cordierite ceramics. However, in order to restrict the coefficient of thermal expansion to not more than 1.0×10⁻⁶ /°C., the talc particles should be made coarse, for example having an average particle diameter of 10-50 μm. Therefore, it is difficult to conceive a low thermal expansion and highly airtight cordierite ceramic from that disclosure.

Finally, U.S. Pat. No. 4,489,774 discloses a rotary accumulative type beat exchanger consisting of highly airtight cordierite ceramics, wherein a filling material adhesively seals open pores on the surface of the partition walls defining the penetration holes of the honeycomb structural body, consisting essentially of cordierite ceramic of a porosity of 20-45%, but does not disclose a total pore volume of a pore diameter of not less than 5 μm restricted to not more than 0.04 cc/g by using fine talc and kaolin particles having an average particle diameter of not more than 7 μm and not more than 2 μm respectively, whereby the airtight properties are improved. Additionally, the method described in U.S. Pat. No. 4,489,774 requires further steps for carrying, as a slip, a filling material on the fired cordierite honeycomb and refiring it, so that there are drawbacks such as the likelihood of plugging the holes of the cells, and of high costs due to the more complex manufacturing steps.

SUMMARY OF THE iNVENTiON

The present invention obviates said shortcomings and provides a highly airtight cordierite honeycomb structural body to achieve a compatability between airtight property and low thermal expansion properties, which are difficult to achieve in the conventional cordierite ceramics.

An object of the invention is to provide a cordierite honeycomb structural body comprising crystalline phases consisting essentially of cordierite, a total pore volume of a pore diameter of not less than 5 μm of not more than 0.04 cc/g, a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C., and a chemical composition by weight of 45-56% of SiO₂, 30-45% of Al₂ O₃ and 12-16% of MgO) as main components.

Another object of the invention is to provide a method of producing a cordierite honeycomb structural body, comprising preparing a mixture of very fine talc particles of an average particle diameter of not more than 7 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc and optionally, other raw materials so as to produce cordierite having a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃, 12-16% of MgO adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body, and firing the dried honeycomb structural body at a temperature of 1,350°-1,440° C.

A further object of the invention is to provide a cordierite honeycomb structural body comprising crystalline phases consisting essentially of cordierite, a total pore volume of a pore diameter of not less than 2 μm of not more than 0.05 cc/g or, when the porosity in the ceramic material is not more than 25%, of not more than 0.08 cc/g, a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C., and a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃ and 12-16% of MgO, as main components.

A still further object of the invention is to provide a method of producing a cordierite honeycomb structural body, comprising preparing the mixture of very fine talc particles of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, very fine alumina and/or aluminum hydroxide of an average particle diameter of not more than 2 μm and, optionally, other raw materials so as to produce a cordierite having a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃, 12-16% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, and firing the dried honeycomb structural body at a temperature of 1,350°-1,440° C.

Another object of the invention is to provide a method of producing a cordierite honeycomb structural body, comprising preparing a mixture of very fine talc particles of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, very fine alumina and/or aluminum hydroxide particles of an average particle diameter of not more than 2 μm, highly pure amorphous silica of an average particle diameter of not more than 8 μm and, optionally, other raw materials so as to produce a cordierite having a chemical composition by weight of 42-56% of SiO₂ 30-45% of Al₂ O₃, 12-16% of MgO, adding a plasticizer and a binder to the mixture lo obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body, and firing the dired honeycomb structural body at a temperature of 1,350°-1,440° C.

BRiEF DESCRiPTiON OF THE DRAWiNGS

For a better understanding of the present invention, reference is made to the accompanying drawings, in which:

FIG. 1 is a graph showing the relationship between total pore volume of pores of a diameter not less than 5 μm (cc/g) and leakage of the test piece (g/sec.m²). This graph includes the data from Table 2 herein as well as additional data derived from the methods disclosed in the examples herein.

FIG. 2 is a graph showing the relationships between the particle size distribution of fine talc raw material and the cumulative weight percentage, as used in the examples, particularly for tables (A)-(E) of Table 1(a) herein.

FIG. 3 is a graph showing the relationships between the particle size distribution of the fine kaolin raw material and the cumlative weight percentages, as used in the examples, particularly for kaolins (A)-(E) of Table 1(a) herein.

FIGS. 4a and 4b are schematic perspective end views showing an embodiment of rotary accumulating type heat exchanger of the present invention; and

FIG. 5 is a graph showing the relationships between the number of pores of a pore diameter of not less than 2 μm and the leakage amounts of test pieces under air pressure of 1.4 kg/cm².

DESCRIPTION OF THE PREFERRED EMBODIMENT

The inventors have found that in a cordierite honeycomb structural body, the total pore volume of a pore diameter of not less than 5 μm is restricted to not more than 0.04 cc/g by using very fine talc particles of an average particle diameter of not more than 7 μm and very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, whereby a substantially airtight cordierite honeycomb structural body having a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C. is produced. Restriction of the average particle diameter of talc particles to not more than 7 μm is effective for making the pore diameter small. Further, use of kaolin particles of an average particle diameter of not more than 2 μm is effective for controlling the porosity. Furthermore, use of a combination of talc particles of an average particle diameter of not more than 7 μm and kaolin particles of an average diameter not exceeding one-third (1/3) of the average particle diameter of talc accelerates the orientation of the cordierite crystals at the partition walls of the cordierite crystals at the partition walls of the cordierite honeycomb structural body, which contributes to low thermal expansion.

According to the invention, the honeycomb structural body preferably has a chemical composition by weight of 42-56%, preferably 47-53% of SiO₂, 30-45%, preferably 32-38% of Al₂ O₃ and 12-16%, preferably 12.5-15% of MgO. The honeycomb structure may additionally contain unavoidably admixtured components such as TiO₂, CaO, KNaO, Fe₂ O₃ in total amounts of not more than 2.5%, but the content of P₂ O₅ is preferably less than 0.1%. The reason for restricting the content of such materials is that the crystalline phases consist essentially of a cordierite crystal phase and the high thermal expansion glass phases resulting from the impurities are removed.

The inventors have also found that in firing the dried extruded article of a honeycomb structure, the heating temperature is elevated at an average temperature increase rate of 20°-60° C./hr in a temperature range of 1,100°-1,350° C. immediately before the firing temperature, thereafter it is preferably fired at a temperature of 1,350°-1,440° C. if the average temperature increase rate is less than 20° C./hr, the coefficient of thermal expansion becomes too large, and if it exceeds 60° C./hr, the pore diameter becomes too large during firing, as a result of which the airtight property of the body deteriorates. The average temperature increase rate is preferably within the range of 30°-50° C./hr. In addition, the crystal phase in the body can consist essentially of a cordierite crystal phase by firing the dried extruded article at a temperature of 1,350°-1,440° C.

The reason for restricting the total pore volume of a pore diameter of not less than 5 μm to not more than 0.04 cc/g, preferably not more than 0.026 cc/g is that the fluid leakage through the thin walls of the honeycomb structure, as shown in FIGS. 4a and 4b, results mainly from pores of a pore diameter of not less than 5 μm. In order to satisfy this condition, the porosity is preferably restricted to not more than 30%. Referring to FIGS. 4a and 4b, a rotary cordierite heat regenerator 1 of a heat accumulator type comprises a plurality of matrix segments 2 of a honeycomb structural body, each of which matrix segments 2 mainly consist of cordierite.

The present invention includes use of calcined talc and calcined kaolin which are effective for preventing the formation of cracks in the honeycomb structural bodies caused by shrinkage, etc., during the drying and firing steps, when using the fine raw materials kaolin and talc. Use of a higher temperature for calcining talc and kaolin increases the porosity of the coefficient of thermal expansion of the resultant honeycomb structural bodies, so that the calcining temperature should preferably be made as low as possible, if calcined talc or kaolin is used. The unexpected and splended effects of the present invention cannot be attained, unless the sage fine particles of calcined talc and kaolin as those of the raw materials talc and kaolin are used.

The other raw materials for cordierite, namely, an alumina source material such as alumina, aluminum hydroxide, etc., and a silica source material such as amorphous silica, quartz sand, etc., which are the sage ones as those used conventionally, can be used. However, the amount of impurities such as alkali in the chemical composition of the raw materials has to be properly adjusted, and particle sizes of the raw materials must be properly adjusted by excluding the coarse particles, depending on the thickness of the partition walls of the honeycomb structural bodies to be produced.

Thus, according to the invention, there is produced a cordierite honeycomb structural body comprising a crystal phase consisting essentially of cordierite, a total pore volume of a pore diameter of not less than 5 μm of not more than 0.04 cc/g and a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C., by preparing a mixture of very fine talc particles of an average particle diameter of not more than 7 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc and, optionally, other raw materials so as to produce the cordierite of a chemical composition by weight of 42-56%, preferably 47-53% of SiO₂, 30-45%, preferably 32-38% of Al₂ O₃, 12-16%, preferably 12.5-15% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body elevating the temperature of the dried honeycomb structural body at an average temperature increase rate of 20°-60° C./hr in a temperature range 1,100°-1,350° C., immediately before firing, and firing the honeycomb structural body at a temperature of 1,350°-1,440° C.

The firing process is usually carried out for about 0.5-12 hours. The resulting honeycomb structural body has crystalline phases consisting essentially of not less than 90% by weight of cordierite. Other crystals consist essentially of mullite and spinel, inclusive of sapphirine, but the amounts thereof are not more than 2.5% by weight, respectively. When the total pore volume of a pore diameter of not less than 5 μm does not exceed 0.04 cc/g, particularly does not exceed 0.026 cc/g, the honeycomb structural body substantially exhibits an airtight property of a leakage amount of not more than 100 %/sec.m², particularly not more than 50 g/sec.m² under a pressure of 1.4 kg/cm², and consequently is preferred for use as a heat exchanger.

The inventors have also found that in a cordierite honeycomb structure, the total pore volume of a pore diameter of not less than 2 μm is restricted to not more than 0.05 cc/g or the total pore volume of a pore diameter of not less than 2 μm where the porosity in the ceramic material is not more than 25% to not more than 0.08 cc/g by using very fine talc of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, and very fine alumina and/or aluminum, hydroxide particles of an average particle diameter of not more than 2 μm, or higly pure amorphous silica particles of an average particle diameter of not more than 8 μm therewith, whereby a substantially airtight cordierite honeycomb structural body having a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C. is produced. Restriction of the average particle diameter of talc particles to not more than 5 μm is effective for making the pore diameter small. Further, use of kaolin particles of an average particle diameter of not more than 2 μm is effective for controlling the porosity. Furthermore, use of a combination of talc particles of an average particle diameter of not more than 5 μm and kaolin particles of an average diameter not exceeding one-third (1/3) of the average particle diameter of talc accelerates the orientation of the cordierite crystals at the partition walls of the cordierite honeycomb structural body, which contributes to low thermal expansion.

Use of alumina and/or aluminum hydroxide particles of an average particle diameter of not more than 2 μm attains fine pore diameter of low porosity, which has never before been obtained merely with the use of fine talc and kaolin particles.

Furthermore, among various aluminas, alumina of low sodium content is used to obtain a stable fine pore diameter. Restriction of the average particle diameter of higly pure amorphous silica particles to not more than 8 μm is effective for controlling the pore diameter and the porosity. In this case, it is important that the silica be amorphous. For instance, crystalline silicas such as quartz and so on unfavorably result in a considerable increase in porosity. In addition to fine alumina and/or aluminum hydroxide particles, use of amorphous silica gives considerably low thermal expansion.

According to the invention, the honeycomb structural body is preferred to have a chemical composition by weight of 42-56%, preferably 47-53% of SiO₂, 30-45%, preferably 32-38% of Al₂ O₃ and 12-16%, preferably 12,5-15% of MgO. The honeycomb structure may additionally contain unavoidably admixtured components such as TiO₂, CaO, KNaO, Fe₂ O₃ in total amounts of not more than 2.5%, but the content of P₂ O₅ is preferably less than 0.1%. The reason for restricting the contents of such materials is that the crystalline phases consist essentially of a cordierite crystalline phase and the high thermal expansion glass phases resulting from impurities are removed.

Control of the particle sizes of the raw materials such as alumina and/or aluminum hydroxide or amorphous silica renders it unnecessary to especially limit the average temperature increase rate, so that the rapid rate of not less than 50° C./hr is capable of attaining low thermal expansion, which is seen to be preferred to improve the thermal shock resistance. In addition, the crystalline phases can consist essentially of a cordierite crystalline phase by firing the honeycomb structural body at a temperature of 1,350°-1,440° C.

The reason for restricting the total pore volume of a pore diameter of not less than 2 μm to not more than 0.05% cc/g, preferably not more than 0.03 cc/g or the total pore volume of a pore diameter of not less than 2 μm where the porosity in the ceramic material is not more than 25% to not more than 0.08 cc/g, preferably not more than 0.05 cc/g, is that the fluid leakage through thin wall of the honeycomb structure, as shown in FIGS. 4a and 4b results mainly from pores of a pore diameter of not less than 2 μm. In order to satisfy this condition, the porosity is preferably restricted to not more than 30%, preferably not more than 25%.

The present invention can include use of calcined talc and calcined kaolin even when using fine alumina and/or aluminum hydroxide.

Thus, according to the invention, there are produced cordierite honeycomb structural bodies comprising crystalline phases consisting essentially of cordierite, a total pore volume of a pore diameter of not less than 2 μm of not more than 0.05 cc/g or, where the porosity in the ceramic material is not more than 25%, of not more than 0.08 cc/g, and a coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C., by preparing a mixture of very fine talc particles of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, very fine alumina and/or aluminum hydroxide of an average particle diameter of not more than 2 μm and, optionally, other raw materials so as to produce a cordierite of a chemical composition by weight of 42-56%, preferably 47-53% m of SiO₂, 30-45%, preferably, 32-38% of Al₂ O₃, 12-16%, preferably 12.5-15% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structure body, and firing the honeycomb structural body at a temperature of 1,350°-1,440° C.

Further, according to the invention there is produced a cordierite honeycomb structural body comprising crystalline phases consisting essentially of cordierite, a total pore volume of a pore diameter of not less than 2 μm of not more than 0.05 cc/g or where the porosity in the ceramic material is not more than 25% of not more than 0.08 cc/g, and a coefficient of thermal expansion of not more than 0.6×10⁻⁶ /°C. in a temperature range of 40°-800° C., by preparing the mixture of very fine talc of an average particle diameter of not more than 5μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, very fine alumina and/or aluminum hydroxide particles of an average particle diameter of not more than 2 μm, highly pure amorphous silica of an average particle diameter of not more than 8 m and, optionally, other raw materials so as to produce a cordierite of a chemical composition by weight of 42-56%, preferably 47-53% of SiO₂, 30-45%, preferably 32-38% of Al₂ O₃, 12-16% preferably 12.5-15% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body, and firing the honeycomb structural body at a temperature of 1,350°-1,440° C.

When the total pore volume of pore diameter of not less than 2 μm does not exceed 0.05 cc/g, particularly does not exceed 0.03 cc/g, the honeycomb structural body substantially exhibits an airtight property of a leakage amount of not more than 30 g/sec.m², particularly not more than 20 g/sec.m² under a pressure of 1.4 kg/cm², and consequently, is preferred for use as a heat exchanger.

In the honeycomb structural body according to the invention, the total pore volume of a pore diameter of not less than 5 m is not more than 0.04 cc/g and the porosity is not more than 30%, so that the leakage amount is small and the heat exchanging efficiency is high. Further, the coefficient of thermal expansion is small, not more than 1.0×10⁻⁶ /°C. in a temperature range of 40°-800° C., so that the thermal shock resistance is high.

Further, in the honeycomb structural body according to the invention, the total pore volume of a pore diameter of not less than 2 μm is not more than 0.05 cc/g or the total volume of pores of a pore diameter of not less than 2 μm where the porosity of the ceramic material is not more than 25%. is not more than 0.08 cc/g, so that the leakage amount is smaller and the heat exchanging efficiency is higher. In addition, the coefficient of thermal expansion is small, not more than 1.0×10⁻⁶ /°C., preferably very small as not more than 0.6×10⁻⁶ /°C. in a temperature range of 40°-800° C., so that the thermal shock resistance is very high. Furthermore, it is possible to make the walls thin such as a partition wall thickness of not more than 203 m (8 mil), so that the pressure loss is small and a high density of cells is attained. Therefore, a ceramic heat exchanger of a high heat exchanging efficiency can be obtained. Furthermore, a pore diameter is small and the porosity is also small, so that the strength of the honeycomb structural body is higher than that of the conventional honeycomb structural body and consequently thin walls can be attained.

Hereinafter, the present invention will be explained in more detail with reference to particular Examples.

EXAMPLE 1

Raw materials of chemical compositions and particle sizes as shown in the following Table 1 are mixed based on a batch composition and the particle sizes of talc and kaolin particles as shown in Table 2 to prepare batches of Nos. 1-30 of Table 2. To 100 parts by weight of each batch is added 4.5 parts by weight of methylcellulose and a suitable amount of water and the resulting mixture is kneaded to produce an extrudable blend. The raw materials used are preliminarily passed through a sieve of 63 μm. Thereafter, each blend of the respective batch is formed by a known extrusion means into a cylindrical honeycomb structural body of a diameter of 93 mm and a height of 100 mm having a rectangular cell structure (short side/long side=1/1.73), a cell number of 167 per cm² and a partition wall thickness of 120 μm. Each honeycomb structural body is dried and fired at a firing condition as shown in Table 2 to obtain sintered honeycomb structural bodies. The following properties of the sintered bodies age evaluated: coefficient of thermal expansion (CTE) in a temperature range of 40°-800° C., porosity, total volume of pore diameter of not less than 5 μm, leakage amount, amount of cordierite crystals, and thermal shock resistance. The results of the evaluation are also shown in Table 2. All the sintered bodies have chemical compositions of P₂ O₅ content of less than 0.1%.

In the data stated herein ignition loss ("Ig. loss") means percentage loss in height caused by strong heating at about 1,100° C. in an oxidizing atmosphere. This loss represents the total content of absorbed water and water of crystallination present in the material before heating.

EXAMPLE 2

The batch of No. 4 of Table 2 are extruded from dies of different cell structures in the same manner as in Example 1, and the green honeycomb structural bodies are fired to produce cylindrical honeycomb structural bodies of Nos. 31-40 of a diameter of 93 mm and a height of 100 mm and cell structures as shown in Table 3. The thus produced honeycomb structural bodies are evaluated for pressure loss, leakage amount and coefficient of thermal expansion (CTE). The results of the evaluation are also shown in Table 3.

                                      TABLE 1                                      __________________________________________________________________________                 Average                                                                        particle                                                                       diameter                                                                       (μm)                                                                             Ig.loss                                                                            SiO.sub.2                                                                         Al.sub.2 O.sub.3                                                                   MgO                                                                               TiO.sub.2                                                                         Fe.sub.2 O.sub.3                                                                   CaO + Na.sub.2 O + K.sub.2 O             __________________________________________________________________________     Talc (A)    18.0 5.8 61.2                                                                              0.9 30.9                                                                              -- 0.8 0.3                                      Talc (B)    10.5 5.7 60.9                                                                              1.2 30.8                                                                              -- 0.9 0.3                                      Talc (C)    7.0  5.6 61.3                                                                              0.9 30.9                                                                              -- 0.9 0.3                                      Talc (D)    4.5  5.7 60.8                                                                              1.3 30.8                                                                              -- 1.0 0.3                                      Talc (E)    3.7  5.7 61.1                                                                              1.1 30.8                                                                              -- 0.9 0.3                                      Talc (F)    5.0  5.7 61.6                                                                              0.9 30.5                                                                              -- 0.8 0.3                                      Calcined talc*.sup.1                                                                       4.5  0.1 64.4                                                                              1.4 32.6                                                                              -- 1.0 0.3                                      Kaoline (A) 5.9  13.9                                                                               45.6                                                                              38.7                                                                               -- 0.8                                                                               0.3 0.2                                      Kaoline (B) 2.0  13.9                                                                               45.7                                                                              38.8                                                                               -- 0.9                                                                               0.3 0.2                                      Kaoline (C) 1.0  13.9                                                                               45.5                                                                              38.6                                                                               -- 1.0                                                                               0.4 0.2                                      Kaoline (D) 0.4  13.9                                                                               45.5                                                                              38.6                                                                               -- 0.8                                                                               0.4 0.2                                      Kaoline (E) 0.2  13.9                                                                               45.2                                                                              37.9                                                                               -- 1.4                                                                               0.8 0.2                                      Calcined kaoline (A)*.sup.2                                                                1.0  0.1 53.1                                                                              45.0                                                                               -- 0.9                                                                               0.4 0.2                                      Calcined kaoline (B)*.sup.3                                                                2.0  0.1 53.1                                                                              45.1                                                                               -- 0.8                                                                               0.4 0.2                                      Calcined kaoline (C)*.sup.4                                                                5.9  0.1 53:2                                                                              45.0                                                                               -- 0.8                                                                               0.4 0.2                                      Alumina     4.0  0.2 -- 99.2                                                                               -- -- --  0.3                                      Aluminum hydroxide                                                                         1.2  33.7                                                                               -- 64.5                                                                               -- -- --  0.3                                      Silica      9.1  0.3 99.4                                                                              0.1 -- -- 0.1 --                                       __________________________________________________________________________      *.sup.1 Prepared by firing talc (D) at 1000° C. for 2 hours             *.sup.2 Prepared by firing kaoline (C) at 1000° C. for 4 hours          *.sup.3 Prepared by firing kaoline (B) at 1000° C. for 4 hours          *.sup.4 Prepared by firing kaoline (A) at 1000° C. for 4 hours          *Particle size distributions and average particle diameter are those base      on the principle of Xray sedimentation method, and measured by Sedigraph       (Trade name) of Micrometrics Co.                                         

                                      TABLE 2                                      __________________________________________________________________________     Batch composition (wt %)                                                                              Calcined                   Ratio of                         Talc         Kaoline                                                                              kaoline                    average                          (average     (average                                                                             (average                   particle                         particle     particle                                                                             particle                   diameter                     Test                                                                               diameter                                                                             Calcined                                                                              diameter                                                                             diameter     Aluminum      (kaoline/                    No. μm)                                                                               talc   μm)                                                                               μm)                                                                               Alumina                                                                               hydroxide                                                                              Silica                                                                               talc)                        __________________________________________________________________________      1  41.0(10.5)                                                                           --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/16                          2  41.0(7.0)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/10                          3  41.9(4.5)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.7                         4  41.0(3.7)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/5.5                         5  41.0(4.5)                                                                            --     25.0(0.2)                                                                            20.5(1.0)                                                                            13.5   --      --    1/8.0                         6  41.0(3.7)                                                                            --     25.0(0.2)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.6                         7  41.0(4.5)                                                                            --     25.0(5.9)                                                                            20.5(5.9)                                                                            13.5   --      --    1/0.8                         8  41.0(7.0)                                                                            --     25.0(2.0)                                                                            20.5(1.0)                                                                            13.5   --      --    1/4.5                         9  41.0(4.5)                                                                            --     25.0(1.0)                                                                            20.5(1.0)                                                                            13.5   --      --    1/4.5                        10  41.0(4.5)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.7                        11  41.0(4.5)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.7                        12  41.0(4.5)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.7                        13  41.0(4.5)                                                                            --     25.0(0.4)                                                                            20.5(1.0)                                                                            13.5   --      --    1/6.7                        14  40.5(4.5)                                                                            --     20.0(0.4)                                                                            20.0(1.0)                                                                            13.7   --      --    1/6.1                        15  40.5(4.5)                                                                            --     20.0(0.4)                                                                            25.8(1.0)                                                                            13.7   --      --    1/6.1                        16  40.5(4.5)                                                                            --     20.0(0.4)                                                                            25.8(1.0)                                                                            13.7   --      --    1/6.1                        17  39.0(4.5)                                                                            --     20.0(5.9)                                                                            15.0(5.9)                                                                            10.5   10.5     5.0  1/0.8                        18  40.7(18)                                                                             --     28.1(5.9)                                                                            16.7(5.9)                                                                            14.5   --      --    1/3.1                        19  40.7(18)                                                                             --     28.1(5.9)                                                                            16.7(5.9)                                                                            14.5   --      --    1/3.1                        20  30.5(4.5)                                                                            10.0   21.7(0.2)                                                                            23.3(1.0)                                                                            14.5   --      --    1/7.3                        21  24.2(3.7)                                                                            15.0   20.8(0.2)                                                                            25.1(1.0)                                                                            14.9   --      --    1/6.3                        22  39.1(4.5)                                                                            --     --    --    19.1   19.2    22.6  --                           23  40.7(5.0)                                                                            --     28.1(2.0)                                                                            16.7(1.0)                                                                            14.5   --      --    1/3.1                        24  40.7(3.7)                                                                            --     28.1(2.0)                                                                            16.7(1.0)                                                                            14.5   --      --    1/2.3                        25  40.7(4.5)                                                                            --     28.1(2.0)                                                                            16.7(2.0)                                                                            14.5   --      --    1/2.3                        26  40.7(5.0)                                                                            --     28.1(0.2)                                                                            16.7(1.0)                                                                            14.5   --      --    1/10                         27  40.7(5.0)                                                                            --     28.1(1.0)                                                                            16.7(1.0)                                                                            14.5   --      --    1/5.0                        28  40.7(5.0)                                                                            --     28.1(0.2)                                                                            16.7(2.0)                                                                            14.5   --      --    1/5.7                        29  40.7(7.0)                                                                            --     28.1(0.2)                                                                            16.7(2.0)                                                                            14.5   --      --    1/8.0                        30  40.7(7.0)                                                                            --     28.1(2.0)                                                                            16.7(2.0)                                                                            14.5   --      --    1/3.5                        __________________________________________________________________________                         Properties of sintered body                                                               Total volume*.sup.3                             Firing conditions               of pores                                           Temper-*.sup.1              of a pore    Amount*.sup.5                         ature Maximum                                                                              Hold-          diameter of   of cor-                                                                              Thermal*.sup.6                  raising                                                                              temper-                                                                              ing CTE ×                                                                               not less                                                                               Leakage*.sup.4                                                                       dierite                                                                              shock                       Test                                                                               rate  ature time                                                                               10.sup.-6                                                                           Porosity*.sup.2                                                                      than 5 μm                                                                           amount                                                                               crystal                                                                              resistance                  No. (°C./Hr)                                                                      (°C.)                                                                         (Hr)                                                                               (/°C.)                                                                       (%)   (cc/g)  (g/s · m.sup.2)                                                             (wt %)                                                                               (°C.)                __________________________________________________________________________      1  50    1410  6   0.5  30.5  0.088   292   95    850                          2  50    1410  6   0.5  29.8  0.037   78    94    900                          3  50    1410  6   0.6  27.6  0.026   49    95    850                          4  60    1410  6   0.7  26.9  0.022   37    95    800                          5  40    1415  8   0.5  25.9  0.013   5     93    900                          6  40    1415  8   0.6  25.0  0.010   8     93    850                          7  30    1420  6   1.1  31.2  0.053   145   91    700                          8  30    1420  6   1.0  30.0  0.040   92    92    750                          9  30    1420  6   0.8  27.2  0.025   44    93    800                         10  15    1410  6   1.1  25.8  0.012   8     93    700                         11  20    1410  6   0.9  26.0  0.018   22    95    750                         12  35    1410  6   0.7  26.2  0.026   45    96    800                         13  80    1410  6   0.4  29.4  0.046   110   94    900                         14  60    1350  12  1.0  30.0  0.039   89    90    750                         15  60    1430  2   0.6  26.1  0.034   78    94    850                         16  60    1440  0.5 0.5  25.8  0.032   64    91    850                         17  50    1410  6   1.2  31.0  0.110   387   90    650                         18  50    1410  6   0.7  35.8  0.114   393   96    800                          19*.sup.7                                                                         50    1410  24  1.1  28.2  0.070   54    88    700                         20  40    1410  0.5 0.6  28.2  0.025   43    95    850                         21  40    1410  6   0.8  28.7  0.024   43    95    800                         22  50    1415  6   1.1  38.0  0.148   >400  90    700                         23  30    1415  6   1.0  29.7  0.037   88    94    750                         24  30    1415  6   1.2  28.8  0.030   62    94    650                         25  30    1415  6   1.1  29.1  0.035   81    94    700                         26  40    1410  6   0.6  27.2  0.023   37    93    850                         27  40    1410  6   0.8  27.9  0.026   50    93    800                         28  40    1410  6   0.7  27.4  0.024   40    93    800                         29  20    1425  8   0.6  28.9  0.035   78    95    850                         30  20    1425  8   0.7  29.5  0.040   98    96    800                         __________________________________________________________________________      *.sup.1 Average temperature raising rate in a temperature range of             1,100-1,350° C.                                                         *.sup.2 Mercury porosimeter. Calculated on total pore volume (assumed          cordierite true density of 2.52)                                               *.sup.3 Mercury porosimeter                                                    *.sup.4 Measured with the use of honeycomb structural bodies having a tes      piece shape of 75 mmφ × 60 mml and no outer wall under air           pressure of 1.4 kg/cm.sup.2. Measuring method is performed in accordance       with "Ceramic Regenerator System Development ProgramFinal Report" on page      213 in USA DOE/NASA/000812, NASACR165139                                       *.sup.5 Xray diffraction. Qunatitative values on ZnO internal standard         *.sup.6 Durable temperature when held for 30 min in an electric furnace        and exposing to room temperature.                                              *.sup.7 Glass powder or cordierite powder is deposited on the No. 18           sintered body such that 20% of the powder adhered to open pores. Also see      data in U.S. Pat. No. 4,489,774.                                         

                                      TABLE 3                                      __________________________________________________________________________     No.          31   32  33  34  35  36  37  38  39   40                          __________________________________________________________________________     Cell shape   Square           Triangle                                                                                    ##STR1##                            Wall thickness (μm)                                                                      203  152 102 102 140 90  90  120 102  90                          Cell density (cell/cm.sup.2)                                                                62   93  93  190 145 190 250 167 217  248                         Pressure loss*                                                                              0.40 0.55                                                                               0.48                                                                               0.81                                                                               0.97                                                                               0.98                                                                               1.18                                                                               0.92                                                                               1.21 1.43                        (mmH.sub.2 O/mm)                                                               Leakage amount**                                                                            57   49  52  48  32  56  51  37  48   47                          (g/s · m.sup.2)                                                       CTE          0.6  0.6 0.6 0.6 0.7 0.7 0.8 0.6 0.7  0.8                         (×10.sup.-6 /°C.(40-800° C.))                              __________________________________________________________________________      *Pressure loss per unit length measured at flow rate of 0.5 g/sec              · cm.sup.2 -                                                          **Measured with the use of honeycomb structural bodies having a test piec      shape of 75 mmφ × 60 mml and no outer wall under air pressure o      1.4 kg/cm.sup.2                                                          

EXAMPLE 3

Raw materials of chemical compositions and particle sizes as shown in the following Table 4 are mixed based on the batch composition and the particle sizes of talc and kaolin as shown in Table 6 to prepare batches Nos. 101-140 of Table 5. To 100 parts by weight of the mixed batch of the raw materials are added 4.5 parts by weight of methylcellulose and a suitable amount of water and the resulting mixture is kneaded to produce an extrudable blend. The raw materials are all preliminarily treated to pass a sieve of 63 μm. Then, each blend of the respective batch is formed by a known extrusion means into a cylindrical honeycomb structural body of a diameter of 93 mm and a height of 100 mm having a partition wall thickness of 120 μm, a cell number of 167 per cm² and a rectangular cell structure (short side/long side=1/1.73). The honeycomb structural bodies of respective batches are dried and fired at firing conditions shown in Table 5 to obtain sintered honeycomb structural bodies. The sintered bodies are evaluated for their coefficient of thermal expansion in the range 40°-800° C., total pore volume of a pore diameter of not less than 2 μm, leakage amount, amount of cordierite crystals and thermal shock resistance as properties of the sintered bodies. The results of the evaluation are also shown in Table 5. All the sintered bodies have chemical compositions of P₂ O₅ content of less than 0.1%.

                                      TABLE 4                                      __________________________________________________________________________             Average                                                                        particle                                                                       diameter                                                                       (μm)                                                                             Ig.loss                                                                            SiO.sub.2                                                                         Al.sub.2 O.sub.3                                                                   MgO                                                                               TiO.sub.2                                                                         Fe.sub.2 O.sub.3                                                                   CaO + Na.sub.2 O + K.sub.2 O                 __________________________________________________________________________     Talc (a)                                                                               7.5  5.6 61.3                                                                               1.0                                                                               30.7                                                                              -- 1.0 0.3                                          Talc (b)                                                                               5.0  5.7 60.9                                                                               1.2                                                                               30.8                                                                              -- 0.9 0.3                                          Talc (c)                                                                               3.0  5.7 61.2                                                                               0.9                                                                               30.9                                                                              -- 0.9 0.3                                          Kaoline (a)                                                                            2.0  13.9                                                                               45.6                                                                              38.7                                                                               -- 0.8                                                                               0.3 0.2                                          Kaoline (b)                                                                            1.0  13.9                                                                               45.7                                                                              38.7                                                                               -- 0.8                                                                               0.3 0.2                                          Kaoline (c)                                                                            0.4  13.9                                                                               45.5                                                                              38.8                                                                               -- 1.0                                                                               0.4 0.2                                          Kaoline (d)                                                                            0.2  13.9                                                                               45.3                                                                              38.1                                                                               -- 1.4                                                                               0.6 0.2                                          Calcined                                                                               2.0  0.1 53.1                                                                              45.1                                                                               -- 0.9                                                                               0.4 0.2                                          kaoline (a)                                                                    Calcined                                                                               1.0  0.1 53.2                                                                              45.1                                                                               -- 0.9                                                                               0.4 0.2                                          kaoline (b)                                                                    Calcined                                                                               0.8  0.1 53.2                                                                              45.0                                                                               -- 0.8                                                                               0.4 0.2                                          kaoline (c)                                                                    Alumina (a)                                                                            4.0  0.3 -- 99.2                                                                               -- -- --   0.33                                        Alumina (b)                                                                            2.0  0.2 -- 99.3                                                                               -- -- --   0.34                                        Alumina (c)*.sup.1                                                                     1.7  0.2 -- 99.5                                                                               -- -- --   0.12        Na.sub.2 O                      Alumina (d)*.sup.1                                                                     1.0  0.2 -- 99.6                                                                               -- -- --   0.06                                        Aluminum                                                                               3.6  34.5                                                                               -- 65.0                                                                               -- -- --  0.2                                          hydroxide (a)                                                                  Aluminum                                                                               2.0  34.3                                                                               -- 64.9                                                                               -- -- --  0.3                                          hydroxide (b)                                                                  Aluminum                                                                               1.7  34.1                                                                               -- 64.9                                                                               -- -- --  0.3                                          hydroxide (c)                                                                  Aluminum                                                                               1.2  34.0                                                                               -- 65.1                                                                               -- -- --  0.3                                          hydroxide (d)                                                                  Silica (a)*.sup.2                                                                      8.0  0.1 99.6                                                                               0.1                                                                               -- -- 0.1 --                                           Silica (b)*.sup.2                                                                      5.0  0.1 99.7                                                                               0.1                                                                               -- -- 0.1 --                                           Silica (c)*.sup.3                                                                      5.6  0.2 99.4                                                                               0.1                                                                               -- -- --  --                                           __________________________________________________________________________      *.sup.1 Alumina of low sodium content (Na.sub.2 O content of not more tha      0.12%)                                                                         *.sup.2 Amorphous fused silica                                                 *.sup.3 Crystalline silica                                                     *Particle size distributions and average particle diameter are measured i      the same way as in Example 1.                                            

                                      TABLE 5                                      __________________________________________________________________________     Batch composition (wt %)                                                                          Calcined       Aluminum       Ratio of                           Talc   Kaoline                                                                               kaoline                                                                               Alumina hydroxide      average                            (average                                                                              (average                                                                              (average                                                                              (average                                                                               (average       particle                           particle                                                                              particle                                                                              particle                                                                              particle                                                                               particle       diameter                      Test diameter                                                                              diameter                                                                              diameter                                                                              diameter                                                                               diameter       (kaoline/                     No.  μm) μm) μm) μm)  μm) Silica  talc)                         __________________________________________________________________________     101  40.5(7.5)                                                                             25.0(1.0)                                                                             20.8(2.0)                                                                             13.7(2.0)                                                                              --     --      1/5.2                         102  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(2.0)                                                                             13.7(2.0)                                                                              --     --      1/3.4                         103  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(1.0)                                                                             13.7(2.0)                                                                              --     --      1/5.0                         104  40.5(3.0)                                                                             25.0(0.2)                                                                             20.8(1.0)                                                                             13.7(2.0)                                                                              --     --      1/5.3                         105  40.5(3.0)                                                                             25.0(0.2)                                                                             20.8(0.8)                                                                             13.7(2.0)                                                                              --     --      1/6.3                         106  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(2.0)                                                                             13.7(4.0)                                                                              --     --      1/3.4                         107  40.5(3.0)                                                                             25.0(1.0)                                                                             20.8(2.0)                                                                             13.7(2.0)                                                                              --     --      1/2.1                         108  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(2.0)                                                                              13.7(1.7)*                                                                            --     --      1/3.4                         109  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(1.0)                                                                              13.7(1.7)*                                                                            --     --      1/5.0                         110  40.5(3.0)                                                                             25.0(0.2)                                                                             20.8(0.8)                                                                              13.7(1.7)*                                                                            --     --      1/6.3                         111  40.5(5.0)                                                                             25.0(1.0)                                                                             20.8(1.0)                                                                              13.7(1.0)*                                                                            --     --      1/5.0                         112  40.5(3.0)                                                                             25.0(0.2)                                                                             20.8(1.0)                                                                              13.7(1.0)*                                                                            --     --      1/5.3                         113  40.5(3.0)                                                                             25.0(0.2)                                                                             20.8(0.8)                                                                              13.7(1.0)*                                                                            --     --      1/6.3                         114  41.0(3.0)                                                                             27.5(0.2)                                                                             17.5(0.8)                                                                              14.0(1.7)*                                                                            --     --      1/6.9                         115  41.0(3.0)                                                                             27.5(0.2)                                                                             17.5(0.8)                                                                              14.0(1.0)*                                                                            --     --      1/6.9                         116  39.1(5.0)                                                                             29.1(1.0)                                                                             16.0(2.0)                                                                              9.0(2.0)                                                                               6.8(3.6)                                                                             --      1/3.7                         117  39.1(5.0)                                                                             29.1(1.0)                                                                             16.0(2.0)                                                                              9.0(2.0)                                                                               6.8(2.0)                                                                             --      1/3.7                         118  39.1(3.0)                                                                             29.1(0.4)                                                                             16.0(0.8)                                                                              9.0(1.0)*                                                                              6.8(1.7)                                                                             --      1/5.5                         119  38.0(5.0)                                                                             25.6(1.0)                                                                             18.4(1.0)                                                                             --      18.0(3.6)                                                                             --      1/5.0                         120  38.0(3.0)                                                                             25.6(0.4)                                                                             18.4(1.0)                                                                             --      18.0(2.0)                                                                             --      1/4.6                         121  39.5(5.0)                                                                             14.0(1.0)                                                                              9.5(2.0)                                                                             12.5(2.0)                                                                              14.5(2.0)                                                                             10.0(8.0)                                                                              1/3.6                         122  39.5(5.0)                                                                             17.0(1.0)                                                                             11.0(2.0)                                                                             11.5(2.0)                                                                              13.0(2.0)                                                                             8.0(8.0)                                                                               1/3.6                         123  39.5(3.0)                                                                             17.0(0.2)                                                                             11.0(0.8)                                                                              11.5(1.0)*                                                                            13.0(1.2)                                                                             8.0(8.0)                                                                               1/6.9                         124  39.5(7.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                             11.5(2.0)                                                                              10.0(2.0)                                                                             5.0(8.0)                                                                               1/5.1                         125  39.5(5.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                             11.5(2.0)                                                                              10.0(2.0)                                                                             5.0(8.0)                                                                               1/3.6                         126  39.5(5.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                             11.5(2.0)                                                                              10.0(3.6)                                                                             5.0(8.0)                                                                               1/3.6                         127  39.5(5.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                             11.5(2.0)                                                                              10.0(2.0)                                                                             5.0(5.0)                                                                               1/3.6                         128  39.5(5.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                             11.5(2.0)                                                                              10.0(2.0)                                                                              5.0(5.6)**                                                                            1/3.6                         129  39.5(3.0)                                                                             21.0(0.4)                                                                             13.0(1.0)                                                                             11.5(2.0)                                                                              10.0(1.7)                                                                             5.0(5.0)                                                                               1/4.8                         130  39.5(3.0)                                                                             21.0(0.4)                                                                             13.0(0.8)                                                                             11.5(2.0)                                                                              10.0(1.2)                                                                             5.0(5.0)                                                                               1/5.4                         131  39.5(5.0)                                                                             21.0(1.0)                                                                             13.0(2.0)                                                                              11.5(1.7)*                                                                            10.0(2.0)                                                                             5.0(5.0)                                                                               1/3.6                         132  39.5(3.0)                                                                             21.0(0.4)                                                                             13.0(1.0)                                                                              11.5(1.7)*                                                                            10.0(1.7)                                                                             5.0(5.0)                                                                               1/4.8                         133  39.5(3.0)                                                                             21.0(0.4)                                                                             13.0(0.8)                                                                              11.5(1.7)*                                                                            10.0(1.2)                                                                             5.0(5.0)                                                                               1/5.4                         134  39.5(5.0)                                                                             21.0(2.0)                                                                             13.0(0.8)                                                                              11.5(1.7)*                                                                            10.0(1.2)                                                                             5.0(8.0)                                                                               1/3.2                         135  39.5(5.0)                                                                             21.0(2.0)                                                                             13.0(0.8)                                                                              11.5(1.0)*                                                                            10.0(1.2)                                                                             5.0(8.0)                                                                               1/3.2                         136  39.5(3.0)                                                                             21.0(0.4)                                                                             13.0(1.0)                                                                              11.5(1.0)*                                                                            10.0(1.2)                                                                             5.0(5.0)                                                                               1/4.8                         137  39.5(3.0)                                                                             21.0(0.2)                                                                             13.0(0.8)                                                                              11.5(1.0)*                                                                            10.8(1.2)                                                                             5.0(5.0)                                                                               1/7.0                         138  40.0(3.0)                                                                             22.0(0.2)                                                                             16.2(0.8)                                                                              11.0(1.0)*                                                                             7.8(1.2)                                                                             3.0(5.0)                                                                               1/6.6                         139  40.0(5.0)                                                                             22.0(0.2)                                                                             16.2(0.8)                                                                             11.0(2.0)                                                                               7.8(2.0)                                                                             3.0(8.0)                                                                               1/3.4                         140  40.0(3.0)                                                                             25.0(0.2)                                                                             17.5(0.8)                                                                              11.5(1.0)*                                                                             5.0(1.2)                                                                             1.0(5.0)                                                                               1/6.7                         __________________________________________________________________________                        Properties of sintered body                                                               Total volume*.sup.3                              Firing conditions             of pores                                            Temper-*.sup.1             of a pore     Amount*.sup.5                         ature Maximum                                                                              Hold-          diameter of   of cor-                                                                              Thermal*.sup.6                  raising                                                                              temper-                                                                              ing CTE ×                                                                               not less                                                                               Leakage*.sup.4                                                                       dierite                                                                              shock                        Test                                                                              rate  ature time                                                                               10.sup.-6                                                                           Porosity*.sup.2                                                                      than 2 μm                                                                           amount                                                                               crystal                                                                              resistance                   No.                                                                               (°C./Hr)                                                                      (°C.)                                                                         (Hr)                                                                               (/°C.)                                                                       (%)   (cc/g)  (g/s · m.sup.2)                                                             (wt %)                                                                               (°C.)                 __________________________________________________________________________     101                                                                               60    1410  6   0.7  26.4  0.103   100   93    800                          102                                                                               60    1410  6   0.7  26.2  0.050   30    92    800                          103                                                                               60    1410  6   0.6  25.9  0.030   20    92    850                          104                                                                               60    1410  6   0.7  25.1  0.016   13    92    800                          105                                                                               60    1410  6   0.8  20.9  0.012   8     92    750                          106                                                                               60    1410  6   0.6  26.0  0.065   38    93    850                          107                                                                               60    1410  6   1.1  26.2  0.043   27    92    700                          108                                                                               60    1410  6   0.6  25.3  0.046   24    93    850                          109                                                                               60    1410  6   0.6  25.4  0.028   18    93    850                          110                                                                               60    1410  6   0.8  20.4  0.010   7     93    800                          111                                                                               60    1410  6   0.6  23.5  0.027   15    93    800                          112                                                                               60    1410  6   0.7  21.6  0.011   12    94    800                          113                                                                               80    1410  6   0.6  18.6  0.008   5     93    850                          114                                                                               50    1400  6   0.8  21.5  0.014   10    94    750                          115                                                                               50    1400  6   0.8  19.9  0.010   6     94    750                          116                                                                               50    1410  4   0.9  27.4  0.081   64    95    700                          117                                                                               50    1410  4   0.8  24.1  0.065   27    96    750                          118                                                                               50    1410  4   0.6  22.2  0.019   16    95    850                          119                                                                               50    1410  4   0.9  27.9  0.070   60    95    700                          120                                                                               50    1410  4   0.8  24.3  0.044   20    96    750                          121                                                                               60    1410  10  0.3  33.9  0.110   120   90    950                          122                                                                               60    1410  10  0.4  30.0  0.049   30    91    900                          123                                                                               60    1410  10  0.4  26.7  0.025   18    92    850                          124                                                                               60    1410  10  0.4  29.1  0.098   105   90    900                          125                                                                               60    1410  10  0.4  28.7  0.048   26    91    900                          126                                                                               60    1410  10  1.1  30.3  0.070   51    90    700                          127                                                                               60    1410  10  0.4  27.4  0.035   22    91    900                          128                                                                               60    1410  10  0.7  30.7  0.052   33    90    800                          129                                                                               60    1410  10  0.5  25.7  0.024   17    91    900                          130                                                                               60    1410  10  0.6  24.2  0.015   12    90    850                          131                                                                               60    1410  10  0.4  27.3  0.033   21    91    900                          132                                                                               60    1410  10  0.5  25.6  0.017   15    91    900                          133                                                                               60    1410  10  0.5  23.9  0.013   10    91    850                          134                                                                               60    1410  10  0.5  23.8  0.077   28    90    850                          135                                                                               60    1410  10  0.5  23.7  0.052   22    91    850                          136                                                                               60    1410  10  0.5  23.9  0.014   9     91    850                          137                                                                               60    1410  10  0.4  22.3  0.008   7     91    850                          138                                                                               60    1410  10  0.6  22.0  0.007   8     92    800                          139                                                                               60    1410  10  0.6  24.2  0.069   26    92    800                          140                                                                               60    1410  10  0.6  21.8  0.009   7     93    800                          __________________________________________________________________________      *.sup.1 Average temperature raising rate in a temperature range of             1,100-1,350° C.                                                         *.sup.2 Mercury porosimeter. Calculated on total pore volume (assumed          cordierite true density of 2.52)                                               *.sup.3 Mercury porosimeter                                                    *.sup.4 Measured with the use of the honeycomb structural bodies having a      test piece shape of 75 mmφ × 60 mml and no outer wall under air      pressure of 1.4 kg/cm.sup.2. Measuring method was performed in accordance      with "Ceramic Regenerator System Development ProgramFinal Report on page       213 in USA DOE/NASA/000812, NASACR165139                                       *.sup.5 X-ray diffraction. Quantitative values on ZnO internal standard        *.sup.6 Durable temperature when held for 30 min in an electric furnace        and exposing to room temperature.                                              *Alumina of low sodium                                                         **Crystalline silica                                                     

As shown in Table 5, tests Nos. 102-105, 108≧115, 117, 118 and 120 wherein talc particles of an average particle diameter of not more than 5 μm and kaolin particle of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, are admixed with alumina and/or aluminum hydroxide particles of an average particle diameter of not more than 2 μm, and tests Nos. 122, 123, 125, 127 and 129-140, wherein higly pure amourphous silica particle of an average particle diameter of not more than 8 μm is further added thereto, to satisfy the total pore volume of a pore diameter of not less than 2 μm restricted according to the invention.

Further, relations between the leakage amount and the total pore volume of a pore diameter of not less than 2 μm in test pieces are determined at both porosities of less than 25% and not less under air pressure of 1.4 kg/cm², respectively, to obtain the results shown in FIG. 5. In FIG. 5, white circles represent data on the porosity of less than 25% and black circles represent data on the porosity of not less than 25%. As seen from FIG. 5, in order to achieve the leakage amount of 30 g/sec.m² as required by the invention, it is required that when the porosity is less than 25%, the total pore volume of a pore diameter of not less than 2 μm is not more than 0.08 cc/g and when it is not less than 25%, such a total volume is not more than 0.05 cc/g.

Examples of tests Nos. 101 and 124 use talc particles of a particle diameter of not less than 5 μm, tests No. 106 uses alumina particles of a particle diameter of not less than 2 μm, tests Nos. 116, 119 and 120 use aluminum hydroxide particles of a particle diameter of not less than 2 μm, test No. 107 makes a ratio of average particle diameter of kaolin to that of talc of not less than one-third (1/3), test No. 121 uses an amount of added silica of not less than 8.0% and test No. 128 uses crystalline silica as a silica source material, so that the total pore volume and/or the thermal expansion property are not satisfied.

EXAMPLE 4

The batch of test No. 136 in Table 5 is formed into honeycomb structures by extrusion from dies of different cell structures in the same way as in Example 3, and the extruded articles are dried and fired to produce cylindrical honeycomb structural bodies Nos. 141-150 of a diameter of 93 mm and a height of 100 mm having a cell structure as shown in Table 5. Respective honeycomb structural bodies are evaluated on pressure loss, leakage amount and coefficient of thermal expansion (CTE). The results of the evaluation are shown in the following Table 6 and the shape of the resulting honeycomb structural body is represented in FIG. 4.

                                      TABLE 6                                      __________________________________________________________________________     No.          141  142 143 144 145 146 147 148 149  150                         __________________________________________________________________________     Cell shape   Square           Triangle                                                                                    ##STR2##                            Wall thickness (μm)                                                                      203  152 102 102 140 90  90  120 102  90                          Cell density (cell/cm.sup.2)                                                                62   93  93  190 145 190 250 167 217  248                         Pressure loss*                                                                              0.40 0.55                                                                               0.48                                                                               0.81                                                                               0.97                                                                               0.98                                                                               1.18                                                                               0.92                                                                               1.21 1.43                        (mmH.sub.2 O/mm)                                                               Leakage amount**                                                                            24   19  20  17  8   23  19  9   16   15                          (g/s · m.sup.2)                                                       CTE          0.5  0.5 0.5 0.5 0.6 0.6 0.7 0.5 0.6  0.7                         (×10.sup.-6 /°C.(40-800° C.))                              __________________________________________________________________________      *Pressure loss per unit length measured at flow rate of 0.5 g/sec              · cm.sup.2 -                                                          **Measured with the use of honeycomb structural bodies having a test piec      shape of 75 mmφ × 60 mml and no outer wall under air pressure o      1.4 kg/cm.sup.2                                                          

As described in Tables 2 and 3, according to the invention, it is possible to obtain a honeycomb structural body of a total pore volume of a pore diameter of not less than 5 μm of not more than 0.04 cc/g and a coefficient of thermal expansion (CTE) of not more than 1.0×10⁻⁶ /°C., which has an improved thermal shock resistance, a small leakage amount and an improved heat exchanging efficiency.

According to the invention, it is also possible to obtain a honeycomb structure of a total pore volume of a pore diameter of not less than 2 μm of not more than 0.05 cc/g or, where the porosity in the ceramic material is not more than 25%, of not more than 0.08 cc/g and coefficient of thermal expansion of not more than 1.0×10⁻⁶ /°C. or 0.6×10⁻⁶ /°C., which has an improved thermal shock resistance, a very small leakage amount and an improved heat exchanging efficiency.

The cordierite honeycomb structural bodies according to the invention are very useful in a several fields. 

What is claimed is:
 1. A method of producing a cordierite honeycomb structural body, comprising preparing a mixture comprising very fine talc particles of an average particle diameter of not more than 7 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc, so as to produce cordierite of a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃, 12-16% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body, and firing the dried honeycomb structural body at a temperature of 1,350°-1,440° C.
 2. The method of claim 1, wherein the dried honeycomb structural body is fired at an average temperature increase rate of 20°-60° C./hr in a temperature range of 1,100°-1,350° C. immediately before firing at a temperature of 1,350°-1,440° C.
 3. The method of claim 1, wherein the talc particles have an average particle diameter of not more than 5 μm.
 4. The method of claim 1, wherein, the kaolin particles have an average particle diameter of not more than 1 μm.
 5. The method of claim 1, wherein the heat exchanger is constructed including the cordierite honeycomb structural body.
 6. A method of producing a cordierite honeycomb structural body, comprising preparing a mixture comprising very fine talc particles of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of talc particles, and very fine alumina particles selected from the group consisting of alumina and aluminum hydroxide of an average particle diameter of not more than 2 μm, so as to produce a cordierite of a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃ and 12-16% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, drying the extruded honeycomb structural body, and firing the dried honeycomb structural body at a temperature of 1,350°-1,440° C.
 7. The method of claim 6, wherein the content of Na₂ O in the alumina among the raw materials for producing the cordierite is not more than 0.12%.
 8. The method of claim 6, wherein the kaolin particles have an average particle diameter of not more than 1 μm.
 9. A method of producing a cordierite honeycomb structural body, comprising preparing a mixture comprising very fine talc particle of an average particle diameter of not more than 5 μm, very fine kaolin particles of an average particle diameter of not more than 2 μm and not exceeding one-third (1/3) of the average particle diameter of the talc particles, very fine particles selected from the group consisting of alumina and aluminum hydroxide of an average particle diameter of not more than 2 μm, and higly pure amorphous silica particles of an average particle diameter of not more than 8 μm, so as to produce a cordierite having a chemical composition by weight of 42-56% of SiO₂, 30-45% of Al₂ O₃ and 12-16% of MgO, adding a plasticizer and a binder to the mixture to obtain a plasticized deformable batch, extruding the plasticized batch to form a honeycomb structural body, and firing the dried honeycomb structural body at a temperature of 1,350°-1,440° C.
 10. The method of claim 9, wherein the content of Na₂ O in the alumina among the raw materials for producing the cordierite is not more than 0.12%:
 11. The method of claim 9, wherein the kaolin particles have an average particle diameter of not more than 1 μm.
 12. The method of claim 9, wherein the amount of highly pure amorphous silica is not more than 8% by weight of the mixture. 